DE112016006839B4 - Length measurement control device, manufacturing system, length measurement control method and length measurement control program - Google Patents

Abstract

A receiving unit (411) of a length measurement control device (400) receives fitting information (241) indicating a fitting state between parts of a product assembled from a group of parts including members machined using a tool (140). A determination unit (412) of the length measurement control device (400) determines whether to measure a length of the tool (140) in order to correct the machining position in accordance with a change in the length of the tool (140) based on whether the fitting state indicated in the adjustment information (241) received by the receiving unit (411) is outside a threshold range.

Description

Technical area

The present invention relates to a length measurement control device, a manufacturing system, a length measurement control method and a length measurement control program.

Background to the prior art

With a lathe or the like machining device, if machining is repeated many times, the cutting tool wears down little by little and the machining accuracy deteriorates. For this reason, machining accuracy is maintained by taking a length measurement of a dimension of a machined workpiece, a cutting edge position of the cutting tool, or the like using a microscope or a length measuring device such as a microscope. B. a probe is made and the machining position is corrected according to the length measurement results.

With the technique described in Patent Literature 1, instead of a length measurement which is carried out every time a workpiece is to be machined, the length measurement is carried out at a predetermined time, e.g. B. at a start-up time of the processing device or periodically.

With the technique described in Patent Literature 2, a temperature of a servomotor in the machining apparatus is measured in real time when machining the workpiece, and this temperature information is compared with temperature threshold information stored in a system. By detecting a moment when the load applied to the workpiece or the cutting tool is larger than normal, the length measurement is performed.
Patent literature 3 describes a production system for the serial production of products, with at least one processing device for the automatic processing of products, the processing device actuating at least one tool for processing one of the products as a function of control commands, with at least one measuring device for automatically measuring at least one geometric actual Dimension for one of the products processed by the processing device, with a correction device which is coupled to the processing device and to the measuring device and which compares the at least one measured actual dimension with a predetermined target dimension, which is in a tolerance interval with an upper tolerance limit and a lower tolerance limit, the correction device intervening correctively in the control commands of the respective tool, characterized in that the correction device only then corrects the control commands of the respective tool intervene when the actual dimension is outside of an intervention interval which, with an upper intervention limit and a lower intervention limit, is within the tolerance interval, and the correction device automatically adjusts the intervention limits of the intervention interval as a function of previous actual dimensions and / or corrective interventions changed.

Reference list

Patent literature

• Patent Literature 1: JP H10 296 591 A
• Patent literature 2: JP 2004 34 187 A
• Patent Literature 3: DE 102 41 742 A1

Summary of the invention

Technical problem

In methods in which the length measurement is carried out at a predetermined time, such as. B. when the length measurement is performed at the start-up time of the machining device or the length measurement is performed periodically, the experience of a worker is required to determine the time of the length measurement at which reductions in the efficiency of the workpiece machining can be minimized.

In methods in which the time of the length measurement is determined by measuring the temperature of the servomotor in the machining device in real time and by comparing this temperature information with the temperature threshold value information stored in the system, it may be possible to prevent reductions in machining accuracy caused by heat, but it is not possible to prevent reductions in machining accuracy caused by wear of the cutting tool.

In the case of variety and variable quantity production, the wear rate of the cutting tool fluctuates depending on the processing method and number of workpieces. As a result, regardless of which of the aforementioned methods is used to determine the timing of length measurement, there are problems such. B. not being able to maintain the machining accuracy and reduced efficiency in workpiece machining.

An object of the present invention is to determine a point in time for length measurement at which decreases in machining accuracy and can be prevented in processing efficiency, regardless of whether the experience of a worker is available or not and regardless of whether the production is variety and variable quantity production.

the solution of the problem

• eine Empfangseinheit zum Empfangen von Anpassungsinformation, die einen Anpassungszustand zwischen Teilen eines Produkts anzeigt, zusammengesetzt aus einer Gruppe von Teilen, die ein Element enthalten, das unter Verwendung eines Werkzeugs bearbeitet wurde; und
• eine Ermittlungseinheit zum Ermitteln, ob ein Längenmaß des Werkzeugs gemessen werden soll, um eine Bearbeitungsposition in Übereinstimmung mit einer Änderung im Längenmaß des Werkzeugs zu korrigieren, auf Grundlage dessen, ob der in der Anpassungsinformation angezeigte durch die Empfangseinheit empfangene Anpassungszustand sich außerhalb eines Schwellenbereichs befindet.

According to one aspect of the present invention, a length measurement control device includes:

• a receiving unit for receiving adjustment information indicating an adjustment state between parts of a product composed of a group of parts including an element that has been machined using a tool; and
• a determination unit for determining whether to measure a length of the tool in order to correct a machining position in accordance with a change in the length of the tool based on whether the adjustment state received in the adjustment information by the receiving unit is outside a threshold range.

Advantageous Effects of the Invention

Whether a length dimension of a tool is to be measured, that is, whether a length measurement for correcting a machining position in accordance with a change in the length dimension of the tool is to be carried out, is determined with the present invention by whether a matching state between parts in an assembled product outside a Threshold range is. It is thus possible to determine the point in time of the length measurement at which reductions in machining accuracy and machining efficiency can be prevented, regardless of whether the experience of a worker is available or not and regardless of whether the production is a variety and variable quantity production is.

Figure list

• 1 FIG. 13 is a block diagram illustrating the configuration of a manufacturing system according to Embodiment 1. FIG.
• 2 FIG. 13 is a block diagram illustrating the configuration of a machining device according to Embodiment 1. FIG.
• 3 FIG. 13 is a block diagram illustrating the configuration of a mounter according to Embodiment 1. FIG.
• 4th FIG. 13 is a block diagram illustrating the configuration of a test apparatus according to Embodiment 1. FIG.
• 5 FIG. 13 is a block diagram illustrating the configuration of a length measurement control device according to Embodiment 1. FIG.
• 6th FIG. 12 is a flowchart illustrating operations of the processing apparatus in accordance with Embodiment 1. FIG.
• 7th FIG. 13 is a flowchart illustrating operations of the mounting apparatus in accordance with Embodiment 1. FIG.
• 8th FIG. 13 is a flowchart illustrating operations of the length measurement control device in accordance with Embodiment 1. FIG.
• 9 FIG. 12 is a flowchart illustrating operations of the processing apparatus in accordance with Embodiment 1. FIG.
• 10 FIG. 13 is a flowchart illustrating operations of the length measurement control device in accordance with Embodiment 1. FIG.
• 11 FIG. 13 is a flowchart illustrating operations of the test apparatus in accordance with Embodiment 1. FIG.
• 12th FIG. 13 is a flowchart illustrating operations of the length measurement control device in accordance with Embodiment 1. FIG.
• 13th FIG. 13 is a flowchart illustrating operations of the length measurement control device in accordance with Embodiment 1. FIG.

Description of the embodiments

The following describes the embodiments of the present invention with reference to the drawings. It should be noted that the same or corresponding parts are designated by the same reference symbols in the individual drawings. In the description of the embodiments, the description of the same or corresponding parts is omitted or simplified as necessary.

Embodiment 1

The present embodiment will be described with reference to FIG 1 to 13th described.

*** Description of the configuration ***

The configuration of a manufacturing system 500 according to embodiment 1, with reference to FIG 1 described.

The manufacturing system 500 includes a processing device 100 , one Assembly device 200 , a testing device 300 and a length measurement control device 400 .

The processing device 100 is a device used in a machining step. The processing device 100 includes a control unit 110 , a product ID reader 130 , a tool 140 and a length measuring device 150 . "ID" is an abbreviation for "identifier".

The assembly device 200 is a device used in an assembling step after the machining step. The assembly device 200 includes a control unit 210 , a product ID reader 230 , an adjustment state detection means 240 and a mounting mechanism 250 .

The testing device 300 is a device used in a test step after the assembly step. The testing device 300 includes a control unit 310 , a product ID reader 330 and a checking mechanism 340 .

The length measurement control device 400 is a device that determines a point in time at which a length measurement of the tool used in the machining step 140 is to be carried out. The length measurement control device 400 includes a receiving unit 411 and a determination unit 412 .

The length measurement control device 400 is with the processing device 100 , the assembly device 200 and the testing device 300 over a network 510 connected. The network is special 510 a LAN. "LAN" is an abbreviation for "Local Area Network".

Customization information 241 is over the network 510 between the matching state detecting means 240 , the assembly device 200 and the receiving unit 411 the length measurement control device 400 sent and received.

The configuration of the machining device 100 according to the present embodiment, reference is made to FIG 2 described.

As described above, the processing device includes 100 the control unit 110 who have favourited Product ID Reader 130 , the tool 140 and the length measuring device 150 .

The control unit 110 is a microcomputer or other computer. The control unit 110 includes a processor 111 and also includes other hardware, such as B. a communication interface 112 and a memory 120 . The processor 111 is connected to the other hardware via a signal line and controls the other hardware.

The processor 111 is an IC that performs processing. "IC" is an abbreviation for "Integrated Circuit". The processor is special 111 a CPU. “CPU” is an abbreviation for “Central Processing Unit”.

The communication interface 112 is an interface that goes through the network 510 with the length measurement control device 400 connects. The communication interface 112 includes a receiver that receives data and a transmitter that sends data. The communication interface is special 112 a communication chip or a NIC. “NIC” is an abbreviation for “Network Interface Card”.

A machining program 121 , a length measurement program 122 and length measurement information 123 are in memory 120 saved. The machining program 121 and the length measurement program 122 are in the processor 111 read in and by the processor 111 executed. The length measurement information 123 is information related to a dimensional error of the tool 140 . The memory is special 120 a flash memory or a RAM. “RAM” is an abbreviation for “Random Access Memory”.

The product ID reader 130 is a facility to clearly identify products. The product ID reading device is special 130 a barcode reader or an RFID reader. "RFID" is an abbreviation for "Radio Frequency Identification".

The tool 140 is a tool for editing an element. The tool is special 140 a cutting tool.

The length measuring device 150 is a device for performing length measurement of the tool 140 to remove dimensional errors of the tool 140 capture.

The configuration of the mounting device 200 according to the present embodiment, reference is made to FIG 3 described.

As described above, the mounting device includes 200 the control unit 210 who have favourited Product ID Reader 230 , the adjustment state detection means 240 and the assembly mechanism 250 .

The control unit 210 is a microcomputer or other computer. The control unit 210 includes a processor 211 and also includes other hardware, such as B. a communication interface 212 and a memory 220 . The processor 211 is connected to the other hardware via a signal line and controls the other hardware.

The processor 211 is an IC that performs processing. The processor is special 211 a CPU.

The communication interface 212 is an interface that goes through the network 510 with the length measurement control device 400 connects. The communication interface 212 includes a receiver that receives data and a transmitter that sends data. The communication interface is special 212 a communication chip or a NIC.

An assembly program 221 is in memory 220 saved. The assembly program is in the processor 211 read in and by the processor 211 executed. The memory is special 220 a flash memory or a RAM.

The product ID reader 230 is a device for the unambiguous identification of products. The product ID reading device is special 230 a barcode reader or an RFID reader.

The adaptation state detector 240 is a device for detecting, using temperature, current value, or the like, the adjustment status at the time of product assembly.

The assembly mechanism 250 is a device for assembling the product.

The configuration of the test device 300 according to the present embodiment, reference is made to FIG 4th described.

As described above, the test apparatus includes 300 the control unit 310 who have favourited Product ID Reader 330 and the checking mechanism 340 .

The control unit 310 is a microcomputer or other computer. The control unit 310 includes a processor 311 and also includes other hardware, such as B. a communication interface 312 and a memory 320 . The processor 311 is connected to the other hardware via a signal line and controls the other hardware.

The processor 311 is an IC that performs processing. Specifically, the processor is a CPU.

The communication interface 312 is an interface that goes through the network 510 with the length measurement control device 400 connects. The communication interface 312 includes a receiver that receives data and a transmitter that sends data. The communication interface is special 312 a communication chip or a NIC.

A test program 321 is in memory 320 saved. The test program 321 gets into the processor 311 read in and by the processor 311 executed. The memory is special 320 a flash memory or a RAM.

The product ID reader 330 is a device for the unambiguous identification of products. The product ID reading device is special 330 a barcode reader or an RFID reader.

The checking mechanism 340 is a device for testing the product.

The configuration of the length measurement control device 400 according to the present embodiment, reference is made to FIG 5 described.

The length measurement control device 400 is a server computer or other computer. The length measurement control device 400 includes a processor 401 and also includes other hardware, such as B. a memory 402 , a first communication interface 403 , a second communication interface 404 , a third communication interface 405 and an auxiliary storage device 420 . The processor 401 is connected to the other hardware via a signal line and controls the other hardware.

The length measurement control device 400 contains the receiving unit as functional elements 411 and the investigation unit 412 . The functions of the "units", such as B. the receiving unit 411 and the investigation unit 412 , are realized by software.

The processor 401 is an IC that performs processing. The processor is special 401 a CPU.

The memory is special 402 a flash memory or a RAM.

The first communication interface 403 is an interface for controlling the processing device 100 over the network 510 . The second communication interface 404 is an interface to get across the network 510 Information from the mounting device 200 to collect. The third communication interface 405 is an interface to get across the network 510 Information from the tester 300 to collect. The first communication interface 403 , the second communication interface 404 and the third communication interface 405 each contain a receiver that receives data and a transmitter that sends data. The first communication interface is special 403 , the second communication interface 404 and the third communication interface 405 Communication chips or NICs. However, a single communication chip or NIC can be used for the first communication interface 403 , the second communication interface 404 and the third communication interface 405 be used.

Programs that implement the functions of the "units", such as B. an adaptation state determination program 421 , a threshold update program 422 and a threshold checking program 423 , are in the auxiliary storage device 420 saved. Furthermore, there is threshold value information 424 , Machining-assembling-collaboration information 425 and log information 426 in the auxiliary storage device 420 saved. The threshold information 424 who have favourited machining-assembly-collaboration information 425 and the log information 426 are saved as files or as tables in a database. Although not illustrated in the drawings, there is also an OS in the auxiliary storage device 420 saved. "OS" is an abbreviation for "Operating System". The programs and the OS stored in the auxiliary storage device 420 , will be in memory 402 loaded and from the processor 401 executed. It should be noted that some or all of the programs that implement the functions of the "units" can be integrated in the OS. The auxiliary storage device is special 420 a flash memory or an HDD. “HDD” is an abbreviation for “Hard Disk Drive”.

The length measurement control device 400 may include an input device and a display as hardware.

In particular, the input device is a mouse, a keyboard or a touch panel. Specifically, the display is an LCD. "LCD" is an abbreviation for "Liquid Crystal Display".

The length measurement control device 400 can use a variety of processors instead of the processor 401 include. The responsibility for executing the programs in order to realize the functions of the "units" is divided among the large number of processors. Each individual processor is an IC that performs processing, similar to the processor 401 .

Information, data, signal values and variable values indicating the results of processing the "units" are stored in memory 402 , the auxiliary storage device 420 or in a resistor or cache memory in the processor 401 saved.

The programs that implement the functions of the "units" can be stored on a portable data carrier, such as B. a magnetic disk or an optical disk.

*** Description of the processes ***

Operations of the manufacturing system 500 according to the present embodiment, referring to FIG 6th to 13th described. The operations of the manufacturing system 500 correspond to a manufacturing method according to the present embodiment. In addition, operations correspond to the length measurement control device 400 a length measurement control method according to the present embodiment. Moreover, the operations correspond to the length measurement control device 400 Processing method of a length measurement control program according to the present embodiment.

As an example of a manufacturing method of a product, a case will be described in which, firstly, elements by the processing device 100 machined into parts, then parts are removed from the assembly jig 200 assembled into products and finally the products are removed from the testing device 300 checked and only good products are sent.

6th illustrates a flow in which the machining program 121 through the processing device 100 is executed and an item is made using the tool 140 processed into parts.

In step S11, the control unit uses 110 the product ID reader 130 to read in a single product ID associated with an item. In step S12, the control unit identifies 110 a product type based on the product ID. The product type is a type that is determined by classifying the product according to the processed shape of the product. In step S13, the control unit reads information on processing operations corresponding to the product type from the memory 120 out. Each of the information of the machining operations includes information about the machining position, the machining method, and the tool to be used in the machining 140 . The control unit corrects in step S14 110 the machining position based on that in memory 120 saved Length measurement information 123 of the tool 140 to maintain machining accuracy. In step S15, the control unit processes the element using the tool 140 by performing an editing operation. In step S16 the control unit ends 110 the process when all of the machining operations have been carried out and the control unit 110 executes the process of step S14 again if not all of the machining processes have been performed.

As described above, in the present embodiment, acquires the processing device 100 from memory 120 the length measurement information 123 showing the length measurement results showing the results of measuring the length of the tool 140 are. The processing device 100 corrects the machining position according to the length measurement results contained in the length measurement information acquired 123 are displayed. The processing device 100 applies the corrected machining position and uses the tool 140 to edit the item.

7th illustrates a flow in which the assembly program 221 through the mounting device 200 and parts using the assembly mechanism 250 can be assembled into a product.

In step S21, the control unit uses 210 the product ID reader 230 to read a unique product ID associated with a part. In step S22, the control unit identifies 210 the product type based on the product ID. In step S23 the control unit reads 210 Information about assembly processes from the memory according to the product type 220 from. Each of the information on the assembly operations includes information on the assembly position and the assembly method. In step S24 the control unit assembles 210 the parts using the assembly mechanism 250 by performing an assembly operation. Simultaneously uses the control unit 210 the adjustment state detecting means 240 to detect the adjustment state. In step S25 the control unit sends 210 the adjustment information 241 showing the product ID, the mounting position and the adjustment status via the communication interface 212 to the length measurement control device 400 . As a result, an adaptation status determination request is sent. In step S26 the control unit ends 120 the process when all of the assembly operations have been completed and the control unit 210 executes the process of step S24 again if not all of the assembling processes have been performed.

As described above, in the present embodiment, the mounting device mounts 200 a product of a group of parts. The assembly device then detects 200 the state of match between the parts of the product. Then the assembly jig sends 200 the adjustment information 241 indicating the detected fitting state to the length measurement control device 400 .

8th Fig. 11 illustrates a flow in which the adaptation state determining program 421 by the length measurement control device 400 is carried out, which the adaptation state determination request via the second communication interface 404 and a decrease in machining accuracy is recorded at the time of assembly.

In step S31, the determination unit saves 412 the information of the product ID, the mounting position and the fitting state contained in the fitting information 241 received by the receiving unit 411 was received as log information 426 in the auxiliary storage device 420 . In step S32, the determination unit identifies 412 the product type based on the product ID. In step S33, the determination unit acquires 412 from the auxiliary storage device 420 the threshold information 424 that corresponds to the mounting position and product type. In step S34, the determination unit determines 412 whether the adaptation state is outside the threshold range of the threshold information 424 lies. If the adaptation state is outside the threshold range, the determination unit determines 412 indicates that the machining position has returned and executes the process of step S35. In step S35, the determination unit identifies 412 the machining position corresponding to the mounting position and the product type based on the machining-mounting collaboration information 425 . The determination unit reports in step S36 412 the processing device 100 via the first communication interface 403 the product type, the processing position and the state of adjustment. As a result, a length measurement request is sent. In the meantime, the determination unit determines 412 in step S34, if the adjustment state is within the threshold range that the machining accuracy has not decreased, and ends the process.

As described above, in the present embodiment, the receiving unit receives 411 the length measurement control device 400 the adjustment information 241 that indicates the state of fit between the parts of the product assembled from the group of parts that include elements made by the tool 140 edited. The investigative unit 412 the Length measurement control device 400 determines whether the length of the tool 140 is to be measured to correct the machining position in accordance with a change in the length of the tool 140 , based on whether the in the adjustment information 241 displayed and by the receiving unit 411 received adaptation state is outside the threshold range.

9 illustrates a sequence in which the length measurement program 122 through the processing device 100 which the length measurement request is executed via the communication interface 112 has received and it is determined whether the threshold information 424 needs to be updated.

In step S41, the control unit identifies 110 the product type based on the product ID reported by the length measurement controller 400 . In step S42, the control unit identifies 110 all editing operations that correspond to the product type. In step S43, the control unit identifies 110 all the tools in the identified machining operations 140 that when machining the machining position reported by the length measurement control device 400 , were used. In step S44 the control unit selects 110 one of the identified tools 140 out. In step S45, the control unit acquires 110 the length measurement information 123 of the selected tool 140 from memory 120 . In step S46, the control unit uses 110 the length measuring device 150 to take a length measurement of the selected tool 140 and records the dimensional error. The control unit determines in step S47 110 based on the length measurement information 123 whether there is a change in the dimensional error. If there is a change in the dimensional error, the control unit leads 110 the process from step S48. In step S48 the control unit updates 110 the length measurement information 123 . If there is no change in the dimensional error in step S47 or after the process of step S48, the control unit performs 110 the process from step S49. The control unit performs in step S49 110 the process from step S50 when the length measurement for all identified tools 140 has been executed and the control unit 110 carries out the process of step S44 again if the length measurement does not take place for all identified tools 140 was carried out. The control unit determines in step S50 110 if there is a change in the dimensional error of even one of the identified tools 140 indicates that the decrease in machining accuracy has been correctly recorded and ends the process. Meanwhile, if there is no change in the dimensional error of all identified tools 140 is determined by the control unit 110 that the decrease in machining accuracy was not correctly detected, that is, the control unit 110 determines that the threshold information 424 needs to be updated and performs the process of step S51. The control unit reports in step S51 110 the length measurement control device 400 via the communication interface 112 the product ID and the processing position. As a result, a threshold update request is sent.

10 Figure 3 illustrates a flow in which the threshold update program 422 is carried out by the length measurement control device 400 that the threshold value update request via the first communication interface 403 received the threshold information 424 for detecting a decrease in machining accuracy is updated and the threshold range is expanded.

In step S61, the determination unit identifies 412 the product type based on the product ID indicated by the processing device 100 . In step S62, the determination unit identifies 412 based on the machining-assembly-collaboration information 425 the mounting position related to the product type and the processing position indicated by the processing device 100 . In step S63, the determination unit acquires 412 from the log information 426 the state of adjustment, which relates to the mounting position and the product ID. In step S64, the determination unit acquires 412 the threshold information 424 related to the mounting position and product type. In step S65, the determination unit determines 412 whether the adaptation state is greater than an upper limit value of the threshold range of the threshold value information 424 . If the adaptation state is greater than the upper limit value of the threshold range, the determination unit performs 412 the process from step S66. In step S66, the determination unit changes 412 the upper limit of the threshold range of the threshold information 424 to the matched state. Meanwhile, when the adjustment state is less than or equal to the upper limit value of the threshold range, the determination unit performs the process of step S67. In step S67, the determination unit determines 412 whether the adaptation state is less than a lower limit value of the threshold range of the threshold value information 424 . If the adaptation state is less than the lower limit value of the threshold range, the determination unit performs 412 the process from step S68. In step S68, the determination unit changes 412 the lower limit of the threshold range of the threshold information 424 to the state of adaptation. Meanwhile, if the adjustment state is greater than or equal to the lower limit value of the threshold range, the determination unit ends 412 the process.

As described above, in the present embodiment, the length dimension of the tool 140 depending on the determination results of the determination unit 412 the length measurement control device 400 measured. When a length measurement result different from the length measurement result shown in the length measurement information 123 is displayed and in memory 120 is stored, distinguishes, is obtained, updates the processing device 100 the length measurement result contained in the length measurement information 123 displayed and in memory 120 is stored for the different length measurement results. Meanwhile, if a length measurement result that is the same as the length measurement result that is in the length measurement information 123 displayed and in memory 120 is stored, is obtained, causes the processing device 100 the length measurement control device 400 to expand the threshold range.

When the machining device 100 two or more tools 140 used to machine an element included in the group of parts will be the length dimensions of the two or more tools 140 measured, depending on the determination result of the determination unit 412 the length measurement control device 400 . When a different length measurement result that is different from the length measurement result, that in the length measurement information 123 displayed and in memory 120 is stored for at least one tool 140 of two or more tools 140 is obtained, updates the processing device 100 the length measurement result of the at least one tool 140 that is in the length measurement information 123 displayed and in memory 120 is stored to the different length measurement result. Meanwhile, if the length measurement results are the same as the length measurement results displayed in the length measurement information and in the memory 120 are saved for all tools 140 of two or more tools 140 are obtained, causes the processing device 100 the length measurement control device 400 to expand the threshold range.

When expanding the threshold range, in cases where the adaptation state specified in the by the receiving unit 411 received adjustment information 241 is greater than the upper limit of the threshold range, the length measurement controller updates 400 the upper limit value of the threshold range to the same value as the adaptation state in which the receiving unit 411 received adjustment information 241 is shown.

When expanding the threshold range, in cases where the adaptation state specified in the by the receiving unit 411 received adjustment information 241 displayed is less than the lower limit of the threshold range, the length measurement controller updates 400 the lower limit value of the threshold range to the same value as the adaptation state in which the receiving unit 411 received adjustment information 241 is shown.

11 illustrates a sequence in which the test program 321 through the testing device 300 is executed, products are checked using the checking mechanism 340 and only good products are shipped. In this process, it is determined whether the threshold information 424 needs to be checked.

In step S71, the control unit uses 310 the product ID reader 330 to read the unique product ID linked to the product. In step S72 the control unit checks 310 the product using the testing mechanism 340 . In step S73, if the product has passed the test, the control unit determines 310 that the product is a good product and finish the process. Meanwhile, if the product fails the test, the control unit determines 310 that the decrease in machining accuracy was not correctly detected, that is, the control unit 110 determines that the threshold information 424 needs to be checked and performs the process of step S74. The control unit reports in step S74 310 the length measurement control device 400 the product ID via the communication interface 312 . As a result, a threshold check request is sent.

12th and 13th illustrate operations that the Threshold Checker 423 by the length measurement control device 400 that the threshold check request over the third communication interface 405 received, executed the threshold information 424 is checked to detect a decrease in machining accuracy and the threshold range is restricted.

In step S81, the determination unit identifies 412 the product type based on the product ID reported by the test fixture 300 . In step S82, the determination unit identifies 412 based on the log information 426 all of the mounting positions according to the product ID. In step S83, the determination unit selects 412 one of the identified assembly positions. In step S84, the determination unit acquires 412 from the log information 426 an adjustment state Fd corresponding to the mounting position and the product ID. In step S85 acquires the investigation unit 412 from the log information 426 a maximum adjustment state X1 according to the mounting position and the product type. The determination unit determines in step S86 412 whether the adaptation state Fd and the maximum adaptation state X1 match. When the adaptation state Fd and the maximum adaptation state X1 match, the determination unit determines 412 that the adaptation state Fd is a special case and the threshold value information 424 needs to be checked, and performs the process of step S87. In step S87, the determination unit acquires 412 from the log information 426 a second largest adaptation state X2 according to the mounting position and the product type. In step S88, the determination unit changes 412 the upper limit of the threshold range of the threshold information 424 to the second largest adaptation state X2. Meanwhile, when the matching state Fd and the maximum matching state X1 do not match, that is, when the matching state Fd is not the maximum, the determination unit performs 412 the process from step S89. In step S89, the determination unit acquires 412 from the log information 426 a minimum adjustment state N1 according to the mounting position and the product type. In step S90, the determination unit determines 412 whether the adaptation state Fd and the minimum adaptation state N1 match. If the adaptation state Fd and the minimum adaptation state N1 match, the determination unit determines 412 that the adaptation state Fd is a special case and the threshold value information 424 needs to be checked, and performs the process of step S91. In step S91, the determination unit acquires from the log information 426 a second smallest adaptation state N2 according to the mounting position and the product type. In step S92, the determination unit changes 412 the lower limit of the threshold range of the threshold information 424 to the second smallest adaptation state N2. Meanwhile, when the matching state Fd is not the minimum, the determination unit determines 412 that the threshold information 424 does not need to be checked. In step S93, the determination unit ends 412 the process when it has been verified for all of the mounting positions whether the threshold value information 424 must be checked and the investigation unit 412 executes the process of step S83 again if it has not been verified for all of the mounting positions whether the threshold value information 424 needs to be checked.

As described above, the test device tests 300 in the present embodiment, whether the product meets a criterion. If the product does not meet the criterion, the test device will initiate 300 the length measurement control device 400 to restrict the threshold range.

In the present embodiment, the test apparatus tests 300 whether two or more products meet the criterion. The testing device 300 reports to the length measurement control device 400 Products, of the two or more products that do not meet the criterion.

When the threshold range is restricted, the length measurement controller updates 400 in cases where the state of match between the parts of a product is reported by the testing device 300 , displayed in the by the receiving unit 411 received adjustment information 241 , is greater than the state of match between the parts of one of the other products included in the by the receiving unit 411 received adjustment information 241 is displayed, the upper limit value of the threshold range to the same value as the next greater adaptation state that is in the by the receiving unit 411 received adjustment information 241 is shown.

When the threshold range is restricted, the length measurement controller updates 400 in cases where the state of match between the parts of a product is reported by the testing device 300 , displayed in the by the receiving unit 411 received adjustment information 241 , is less than the state of match between the parts of one of the other products included in the by the receiving unit 411 received adjustment information 241 is displayed, the lower limit value of the threshold range to the same value as the next lower adaptation state that is determined by the receiving unit 411 received adjustment information 241 is shown.

*** Advantageous Effects of Embodiment ***

As described above, with the present embodiment, the product is uniquely identified by reading out the product ID and the threshold information 424 to determine the accuracy of the tool 140 can be updated automatically. It is thus possible to determine the point in time for length measurement at which reductions in workpiece machining efficiency can be minimized, regardless of whether the experience of a worker is available or not and regardless of whether the production is variety and variable quantity production.

In the present embodiment, the question of whether the length of the tool 140 is to be measured, that is, whether a length measurement is to be used to correct the machining position in accordance with a change in the length of the tool 140 should be carried out, thereby determines whether the state of match between parts in an assembled product is outside the threshold range. It is thus possible to determine the point in time for length measurement at which reductions in processing accuracy and processing efficiency can be prevented, regardless of whether the experience of a worker is available or not and regardless of whether the production is variety and variable quantity production.

In the present invention, tool accuracy degradations 140 the processing device 100 determined at the time of assembly. That is, in the present embodiment, the length measurement is performed when a defect occurs in the assembling step. In this way, declines in processing efficiency can be prevented.

In the present embodiment, the threshold value is automatically updated based on the length measurement results and the inspection results. That is, in the present embodiment, when it is determined that correction at the time of length measurement is unnecessary, the criteria for defects are relaxed. As a result, the machining efficiency can be improved while the machining accuracy is maintained. Meanwhile, if the test fails, the criteria for defects are tightened. As a result, the machining accuracy can be improved.

According to the present embodiment, an optimal length measurement time point of the tool 140 the processing device 100 can be determined using a threshold that is automatically updated. The optimum length measurement time is a length measurement time at which machining accuracy can be maintained while reductions in productivity are minimized.

According to the present embodiment, the optimum length measurement time of the tool 140 the processing device 100 can be determined even in the case of variety and variable quantity production by reading out the product ID and setting the threshold value in accordance with the product type.

*** Other configurations ***

In the present embodiment, the length measuring device is 150 in the processing device 100 housed and thus makes it possible to carry out all operations automatically from the detection of the dimensional error to the correction. In this case, the processing device shows 100 who has received a length measurement instruction displays a warning on the display device connected to the machining device 100 , and an operator who sees this warning is measuring the length of the tool 140 and gives the length measurement information 123 a.

In the present embodiment, when checking the threshold information 424 determines whether the adaptation state is a special case by confirming whether the adaptation state is the maximum or the minimum. However, this determination can be made by a common method using standard deviation, normal distribution, or the like.

In the present embodiment, the test device determines 300 automatically whether the product is good or bad, but a worker can make this determination. In this case, the worker reads in the product ID using the product ID reader 130 such as B. a bar code reader, and inspects the product visually or using equipment. Then the worker gives the test results in a terminal, such as. B. a workstation computer and reports the length measurement control device 400 the product ID and the test results.

In the present embodiment, the functions of the “units” are realized by software, but a modification example in which the functions of the “units” are realized by a combination of software and hardware is possible. In particular, some of the functions of the “units” can be implemented by a dedicated electronic circuit and the remaining functions can be implemented by software.

Specifically, the dedicated electronic circuit is a single circuit, a composite circuit, a programmed processor, a parallel programmed processor, a logic IC, a GA, an FPGA or an ASIC. "GA" is an abbreviation for "Gate Array". "FPGA" is an abbreviation for "Field-Programmable Gate Array". "ASIC" is an abbreviation for "Application Specific Integrated Circuit".

The processor 401 , the memory 402 and the dedicated electronic circuit are collectively referred to as "processing circuit". This means that regardless of whether the functions of the “units” are implemented by software or a combination of software and hardware, the functions of the “units” are implemented by the “processing circuit”.

The term “unit” is interchangeable with “process” or “processing”.

While one embodiment has been described, the embodiment can be partially implemented. Note that the present invention is not limited to the embodiment, and various modifications can be made as necessary.

List of reference symbols

100

Machining device;

110

Control unit,

111

Processor,

112

Communication interface,

120

Storage,

121

Machining program,

122

Length measurement program,

123

Length measurement information,

130

Product ID reader,

140

Tool,

150

Length measuring device,

200

Assembly device,

210

Control unit,

211

Processor,

212

Communication interface,

220

Storage,

221

Assembly program,

230

Product ID reader,

240

Adaptation state detection device,

241

Adjustment information,

250

Mounting mechanism,

300

Test device,

310

Control unit,

311

Processor,

312

Communication interface,

320

Storage,

321

Test program,

330

Product ID reader,

340

Test mechanism,

400

Length measurement control device,

401

Processor,

402

Storage,

403

first communication interface,

404

second communication interface,

405

third communication interface,

411

Receiving unit,

412

Investigation unit,

420

Auxiliary storage device,

421

Adaptation status investigation program,

422

Threshold update program,

423

Threshold checking program,

424

Threshold information,

425

Machining-assembly-collaboration information,

426

Log information,

500

Machining system,

510

Network.

Claims (12)

A length measurement control device comprising: a receiving unit (411) for receiving fitting information (241) indicating a fitting state between parts of a product composed of a group of parts including a member that has been machined using a tool; and a determination unit (412) for determining whether to measure a length of the tool (140) in order to correct a machining position in accordance with a change in the length of the tool based on whether that is received by the receiving unit (411) The adjustment state indicated by adjustment information (241) is outside a threshold range. A manufacturing system comprising: the length measurement control device (400) according to Claim 1 ; and a machining device for acquiring, from a memory, length measurement information (123) indicating a length measurement result that is a result of measuring the length of the tool to assign the machining position depending on the length measurement result indicated in the acquired length measurement information (123) correcting, and for machining the element using the tool (140) by applying a corrected machining position; and in the event that the length dimension of the tool (140) is measured as a function of the determination result of the determination unit, for updating the length measurement result that is in the length measurement information (123) stored in the memory (120) is displayed to a different length measurement result when the different length measurement result different from the length measurement result displayed in the length measurement information (123) stored in the memory is obtained and to cause the length measurement control device (400) to expand the threshold range when a length measurement result which is the same as the length measurement result displayed in the length measurement information (123) stored in the memory is obtained. Manufacturing system (500) Claim 2 wherein, in the case that the machining device (1) uses two or more tools (140) as the tool for machining the element included in the group of parts, and length dimensions of two or more tools (140) depending on the determination result of the determination unit are measured, the machining device (1) updates the length measurement result of the at least one tool (140) displayed in the length measurement information (123) stored in the memory (120) to the different length measurement result when the different length measurement result that differs from the in the length measurement information (123) stored in the memory (120) stored length measurement result displayed, for at least one tool (140) of the two or more tools (140) is obtained, and the machining device (1) causes the length measurement control device (400) to set the threshold range expand when length measurement results are the same t how the length measurement results displayed in the length measurement information (123) stored in the memory are obtained for each of the two or more tools (140). Manufacturing system (500) Claim 2 or 3 wherein when expanding the threshold range, in a case where an adjustment state indicated in the adjustment information (241) received from the receiving unit (411) is larger than an upper limit value of the threshold range, the length measurement control device (400) sets the upper limit value of the threshold range is updated to a value identical to the adjustment state indicated in the adjustment information (241) received from the receiving unit. Manufacturing system (500) according to one of the Claims 2 to 4th wherein when expanding the threshold range, in a case where an adjustment state indicated in the adjustment information (241) received from the receiving unit (411) is smaller than a lower limit value of the threshold range, the length measurement control device (400) sets the lower limit value of the threshold range is updated to a value identical to the adjustment state indicated in the adjustment information (241) received from the receiving unit. A manufacturing system comprising: the length measurement control device (400) according to Claim 1 ; and a checking device (300) for checking whether or not the product meets a criterion and, if the product does not meet the criterion, for causing the length measurement control device (400) to narrow the threshold range. Manufacturing system (500) Claim 6 wherein the checking device (300) checks whether two or more products than the product meet the criterion, and the length measurement control device (400) reports a product among the two or more products that does not meet the criterion. Manufacturing system (500) Claim 7 wherein, when the threshold range is narrowed, in a case where a matching state between parts of the product notified from the inspection device indicated in the matching information (241) received by the receiving unit (411) is larger than a matching state between parts of each other product indicated in the adjustment information (241) received by the receiving unit, the length measurement control device (400) updates an upper limit value of the threshold range to a value which is identical to a next largest adjustment state in the adjustment information received by the receiving unit (241) is shown. Manufacturing system (500) Claim 7 or 8th wherein, when the threshold range is narrowed, in a case where a matching state between parts of a product has been notified from the test apparatus indicated in the matching information (241) received by the receiving unit (411) is smaller than a matching state between parts of every other product indicated in the adjustment information (241) received by the receiving unit, the length measurement control device (400) updates a lower limit value of the threshold range to a value which is identical to a next smallest adjustment state in the adjustment information received by the receiving unit (241) is displayed. A manufacturing system comprising: the length measurement control device (400) according to Claim 1 ; and a mounting device (200) for mounting the product from the group of parts, for detecting a state of fit between the parts of the Product and for sending adjustment information (241) indicating the detected adjustment state to the length measurement control device. Length measurement control procedure comprising: receiving, by a receiving unit, adjustment information (241) indicating an adjustment state between parts of a product assembled from a group of parts including an element machined using a tool; and determine, by a determination unit, whether a length dimension of the tool (140) should be measured in order to correct a machining position in accordance with a change in the length dimension of the tool, based on whether the adjustment information (411) received from the receiving unit (411) is 241) is outside the threshold range. Length measurement control program that causes a computer to perform: Receiving matching information (241) indicating a matching state between parts of a product assembled from a group of parts including an element machined using a tool; and Determining whether to measure a length dimension of the tool (140) to correct a machining position in accordance with a change in the length dimension of the tool based on whether or not the adjustment state indicated in the adjustment information (241) received is outside a threshold range.

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